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[permaculture] Fwd: [compost_tea] Soil Sequencing Uncovers 500 Common, Abundant Bacterial Species | GenomeWeb
- From: Lawrence London <lfljvenaura@gmail.com>
- To: permaculture <permaculture@lists.ibiblio.org>
- Subject: [permaculture] Fwd: [compost_tea] Soil Sequencing Uncovers 500 Common, Abundant Bacterial Species | GenomeWeb
- Date: Fri, 2 Feb 2018 21:11:42 -0500
---------- Forwarded message ----------
From: Jeff Lowenfels gardenerjeff@me.com [compost_tea] <
compost_tea@yahoogroups.com>
Date: Fri, Feb 2, 2018 at 4:55 PM
Subject: [compost_tea] Soil Sequencing Uncovers 500 Common, Abundant
Bacterial Species | GenomeWeb
To: CT <compost_tea@yahoogroups.com>
Wow
https://www.genomeweb.com/sequencing/soil-sequencing-
uncovers-500-common-abundant-bacterial-species
Soil Sequencing Uncovers 500 Common, Abundant Bacterial Species
NEW YORK (GenomeWeb) – Only a small percentage of bacterial species are
both common and abundant in soils around the world, a new sequencing
analysis has found.
A University of Colorado, Boulder-led team of researchers sequenced
hundreds of soil samples obtained from six continents to create an atlas of
soil bacteria. As the team reported in *Science* today
<http://science.sciencemag.org/content/359/6373/320>, it found that though
soil microbes are tremendously diverse, there are about 500 bacterial
species that account for about half of worldwide soil bacterial communities.
"With this research, we have started to open the black box and are gaining
a better understanding of what microbes are living in our soils," first
author Manuel Delgado-Baquerizo from CU Boulder said in a statement.
Delgado-Baquerizo and his colleagues collected soil samples from 237 sites
around the globe, spanning 18 countries and a range of climate and
ecosystem types. They amassed samples from forests and shrublands as well
as from arid and tropical regions. Using 16S rRNA gene amplicon sequencing,
the researchers identified the dominant — both the most abundant and most
ubiquitous — bacterial species, or phylotypes among the samples.
The samples were highly variable, the researchers reported. Some samples
contained hundreds of phylotypes, while others harbored thousands.
Still, they found that 2 percent of the bacterial phylotypes — or 511 of
the 25,224 phylotypes — were dominant. These phylotypes accounted for 41
percent of 16S rRNA gene sequences across all samples and were found at
sites across the six continents studied.
About 85 percent of the phylotypes identified by the researchers were also
uncovered by a previous shotgun metagenomic study of 123 soils, and the
majority of the dominant phylotypes found by the Earth Microbiome Project
were also on the researchers' list from this study, which provides some
validation of their findings, they said.
These dominant phylotypes include species belonging to Alphaproteobacteria,
Betaproteobacteria, and Actinobacteria, among others.
Using random forest modeling, Delgado-Baquerizo and his colleagues sought
to uncover whether the phylotypes had specific habitat preferences. Their
model took 15 environmental variables, such as aridity, ultraviolent
radiation levels, and soil pH, into account. They found that slightly more
than half of the 511 dominant phylotypes had predictable habitat
preferences. Variables such as soil pH, climatic factors like soil pH and
seasonal rainfall levels, and plant productivity were the best predictors
of the bacterial abundance, the researchers noted.
Two hundred of these 270 phylotypes could also then be clustered into five
groups with similar habitat preferences: high pH, low pH, drylands, low
plant productivity, and dry-forest environment. Each cluster included
phylotypes from a range of phyla, suggesting to the researchers that
habitat preference wasn't linked to phylogeny.
They did, though, examine the genomes of the members of each cluster to see
whether they shared any particular characteristics. While they had a
limited sample size for four of the five clusters, the researchers could
still tease out that the drylands cluster had an increased relative
abundance of 18 genes. This gene set includes Mnh and Mrp genes, which both
encode membrane transport proteins, and have been linked to bacterial
tolerance to alkaline or saline conditions.
Co-author Noah Fierer noted that this list and groupings of soil bacteria
could help focus research efforts to understand the roles of the bacteria.
Further study of these dominant soil bacteria could have agricultural
applications, he and his colleagues said.
"Eventually, knowing more about these bacteria might allow us to improve
soil health and fertility," Delgado-Baquerizo added. "There's a lot that we
can do now that we have some tractable information."
Plant a row for the hungry/Read Teaming With Microbes, Teaming With
Nutrients and Teaming With Fungi!
__._,_.___
------------------------------
Posted by: Jeff Lowenfels <gardenerjeff@me.com>
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__,_._,___
--
Lawrence F. London, Jr.
lfljvenaura@gmail.com
https://sites.google.com/site/avantgeared
-
[permaculture] Fwd: [compost_tea] Soil Sequencing Uncovers 500 Common, Abundant Bacterial Species | GenomeWeb,
Lawrence London, 02/02/2018
- <Possible follow-up(s)>
- [permaculture] Fwd: [compost_tea] Soil Sequencing Uncovers 500 Common, Abundant Bacterial Species | GenomeWeb, Lawrence London, 02/04/2018
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